35 Joules is 35 newton-meters. The nergy is weight times distance = weight x .5 meters = 35 so weight is 35/.5 = 70NForce = weight =mass x acceleration ; mass =weight/gravity accel = 70/9.814 = 7.13 kg
Yeah
Sure. When a 6-kg bowling ball is resting on a shelf that's 2 meters off the floor, it has 12 joules of gravitational potential energy referenced to the floor.
Unit of energy; approximately 4.2 joules
joules are the amount of energy
Energy is measured in joules.Energy is measured in joules.Energy is measured in joules.Energy is measured in joules.
Energy is measured in Joules most often.
It isn't possible. Joules is the measure of energy and cm is a measure of distance.
It's impossible. Nanometers are units of distance and Joules are units of energy.
It has impressive rotational kinetic energy as well as linear kinetic energy. Example, a 7 kg diameter 0.25 metre diameter bowling ball travelling at 10 metres / second, has a linear KE of 350 joules, and also a rotating KE of 140 joules, both of these have to be arrested upon stopping the bowling ball.
Assuming the force doesn't change, and the force and movement are in the same direction, the energy (the joules) is the product of distance and force. Thus, you just need to divide the energy by the distance.
Power is energy / time, energy is power x time.This is similar to the distinction between distance and speed: speed = distance / time; at constant speed, distance = speed x time.Enery is measured in Joules, power is measured in Joules / second, a.k.a. "Watts".
Joule is a unit of energy while cm is a unit of distance.
that's the work done or energy in joules
the energy unit is called joules
Sure. When a 6-kg bowling ball is resting on a shelf that's 2 meters off the floor, it has 12 joules of gravitational potential energy referenced to the floor.
A force acting through a distance is Work.Work has the same unit as energy - Joules (or Ergs)Work = Force x Distance
Force times work doesn't give joules. Joules is a unit of energy or work. Perhaps you mean the relation: force x distance = work.
Unit of energy; approximately 4.2 joules